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  • 1. Braun, Sabine
    et al.
    Ahrends, Bernd
    Alonso, Rocio
    Augustin, Sabine
    García-Gómez, Hector
    Hůnová, Iva
    Karlsson, Per Erik
    IVL Swedish Environmental Research Institute.
    Karlsson, Gunilla Pihl
    IVL Swedish Environmental Research Institute.
    Schmitz, Andreas
    Thimonier, Anne
    Nitrogen deposition in forests: Statistical modeling of total deposition from throughfall loads2022In: Frontiers in Forests and Global Change, E-ISSN 2624-893X, Vol. 5Article in journal (Refereed)
    Abstract [en]

    Introduction: Nitrogen (N) gradient studies in some cases use N deposition inthroughfall as measure of N deposition to forests.

    For evaluating critical loadsof N, however, information on total N deposition is required, i.e., the sum ofestimates of dry, wet and occult deposition.Methods: The present paper collects a number of studies in Europe wherethroughfall and total N deposition were compared in different forest types

    .From this dataset a function was derived which allows to estimate total Ndeposition from throughfall N deposition.Results: At low throughfall N deposition values, the proportion of canopyuptake is high and thus the underestimation of total deposition by throughfallN needs to be corrected.

    At throughfall N deposition values > 20 kg Nha􀀀1 yr􀀀1 canopy uptake is getting less important.Conclusion: This work shows that throughfall clearly underestimates totaldeposition of nitrogen. With the present data set covering large parts of Europe it is possible to derive a critical load estimate from gradient studiesusing throughfall data.

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